Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Peptides that bind with high affinity to class II MHC molecules can inhibit T cell activation both in vitro and in vivo. Thus, they have been suggested as potential therapeutic agents for MHC-associated autoimmune diseases. We have constructed nonnatural peptides with high affinity for certain disease-associated MHC alleles. More specifically, a particular peptide, designated as CY-760.50, was found to have a high binding affinity for DR1, slow dissociation kinetics after binding to MHC, and prolonged stability in human serum. However, when the ability of this peptide to block peptide presentation to an influenza hemagglutinin 307-319 peptide-specific, DR1-restricted T cell clone was examined, it was found that MHC blockade could only be achieved when high concentrations of peptide were present along with Ag in the fluid phase. Thus, pretreatment of APC with MHC class II blocker, followed by removal of unbound blocker, did not result in saturation of MHC molecules, because practically immediate reacquisition of Ag-presenting capacity was observed after removal of fluid phase blocker. The pharmacokinetic behavior and the duration of blocking activity of CY-760.50 were also examined in vivo, taking advantage of the fact that the mouse MHC class II molecule I-Ab also bound CY-760.50 with high affinity. CY-760.50 administered i.v. to C57BL/6 mice was rapidly cleared from the circulation and virtually undetectable in the serum 10 min after injection. This fast clearance rate was paralleled by a similarly short duration of the MHC blockade effect. These in vivo results have implications concerning the biology of peptide-MHC interactions, and suggest that MHC blockade may not be feasible as a therapeutic approach unless effective concentrations of inhibitor can be maintained over extended periods of time in the extracellular fluids.
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PMID:Failure to demonstrate long-lived MHC saturation both in vitro and in vivo. Implications for therapeutic potential of MHC-blocking peptides. 815 54

The natural Ag influenza virus A was used to test the requirements for the HLA-DR1-restricted presentation of the epitopes 18-29 in the matrix protein and 307-318 in the hemagglutinin protein. CD4+ cytotoxic T cell clones of similar efficiency were used to detect presentation of these two epitopes. Presentation of the matrix epitope by APC pulsed with either inactivated virus particles or purified soluble protein followed the classical pathway in that 1) it required invariant chain expression, 2) it was blocked by inhibition of protein synthesis, and 3) it was dependent on a function(s) encoded in the MHC class II region. These characteristics suggest that peptides corresponding to the matrix epitope can only load onto newly synthesized class II molecules that were targeted to a processing compartment by the invariant chain. In contrast, presentation of the hemagglutinin epitope processed from virus particles followed a different pathway. First, presentation of hemagglutinin was independent of invariant chain expression. Second, a human B lymphoblastoid cell line in which protein synthesis was inhibited for 9 h was still able to present hemagglutinin even at very low doses of Ag. Third, a DR1-transfected mutant B cell line missing the MHC class II region was able to present hemagglutinin. Thus, mature class II alpha beta molecules can acquire immunogenic peptides derived from intact natural Ags for presentation to CD4+ T cells. This pathway may be useful for the binding of peptides derived from Ags that are rapidly degraded upon uptake into APC.
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PMID:Two processing pathways for the MHC class II-restricted presentation of exogenous influenza virus antigen. 817 8

To investigate the functional roles of DR alpha residues in T-cell recognition, 20 mutants of the DR alpha chain were constructed by site-directed mutagenesis. These DR alpha mutants were expressed with WT DR(beta 1*0701) on mouse L cells and used as APC for four DR7-restricted T-cell clones specific for rabies virus antigens. The results indicate that the DR alpha residues are differentially involved in recognition of rabies virus antigen by different T-cell clones. Mutations in the floor of the antigen-binding groove (positions 9, 11, 22, and 24), on the alpha-helix (47, 55, 65, 66, and 72), and surprisingly on the outer loop (15, 18, and 19), abrogated recognition by at least one T-cell clone. Most of these residues appear to be involved in either peptide or TCR contact, based on the DR1 crystal structure. The involvement in T-cell recognition of DR alpha residues located in the outer loop outside the binding groove suggests that these residues may directly contact TCR, or indirectly contribute to the conformation of peptide sitting in the groove.
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PMID:Substitutions in the HLA-DR alpha chain differentially affect DR7-restricted T-cell recognition of rabies virus antigen. 888 8

Peptides that consist of two tandemly repeated epitopes joined by a flexible linker have an increased affinity for class II molecules and are more potent at inducing proliferation of T cell clones than monomeric epitopes. The increase in potency of peptides with two epitopes for individual T cell clones is proportional to the relative CD4 dependence of the clones. We show that epitope dimers activate T cell clones that respond sub-optimally to monomeric epitopes presented by APC from HIV-infected donors. We hypothesize that HIV+ APC normally fail to stimulate the clones because virally encoded gp 120 sequesters CD4 from the activation complex, but epitope dimers overcome this effect because they are better able to recruit CD4. The alpha beta heterodimer of human class II (HLA-DR1) is further ordered as a dimer of heterodimers (superdimer) at least in its crystal form. Since class II molecules have an open-ended antigen binding groove, the superdimer is theoretically permissive of stable binding of two peptide epitopes linked in tandem. Our data support a role for the MHC class II dimer of heterodimers in amplifying the proliferative response of T cells to antigen by dint of the superdimers having a higher affinity for CD4 than the nominal class II alpha beta heterodimers.
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PMID:Tandem peptide epitopes facilitate CD4-dependent activation of T cell clones. 910 67

The presentation pathways followed by DR1-restricted determinants from the fusion protein of measles virus were studied. By assessing the capacity of various APC preparations to stimulate fusion protein-specific T cells, it was shown that the determinant contained within the fusion protein sequence 254-268 (F254) relies on newly synthesized DR1 protein for its presentation. By contrast, the determinant contained within the fusion protein sequence 314-328 (F314) is captured by DR1 protein recycled from the plasma membrane. In vitro binding analyses showed that the F254 and F314 peptides optimally bind to DR1 at pH 4 and pH 5, respectively. In addition, it was found that binding of the F254 peptide to DR1 is much poorer at pH 7 than at pH 4, while binding of the F314 peptide was decreased only moderately at pH 7 as compared with pH 5. Substitution of the glutamic acid 261 for an alanine in the F254 peptide resulted in an analogue with an improved capacity of binding to DR1 at neutral pH. By contrast, replacement of the valine 319 by a glutamic acid in the F314 peptide generated an analogue with a decreased binding capacity at pH 7. These findings indicated that determinants that do not bear acidic residues are captured efficiently by DR1 molecules over a broader range of pH than determinants containing acidic residues. Binding analyses between DR1 and four additional peptides further supported this conclusion. Altogether, these results suggested that acidic residues, by tuning the optimal pH for the assembly of peptide-DR1 complexes, determine the processing pathway followed by the determinants.
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PMID:The processing routes determined by negatively charged residues in DR1-restricted T cell determinants. 931 22

Identification of mycobacterial antigens that are recognized by CD4+ Th1 cells in HLA-nonrestricted manner or in association with multiple allelic products is required to develop universally effective vaccines against mycobacterial diseases. Our studies in this direction have shown that several recombinant mycobacterial antigens of cytosolic and culture filtrate origin are recognized by CD4+ Th1 cells. Mapping of T cell epitopes with overlapping synthetic peptides covering the entire sequence of these antigens identified peptide sequences stimulatory for Th1 cells. HLA-restriction analysis showed that in addition to HLA-DRB1 products (serologically defined HLA-DR1 to HLA-DR10), the HLA molecules encoded by HLA-DRB3 (HLA-DR52) and HLA-DRB4 (HLA-DR53) are important in presentation of mycobacterial antigens and epitopes to T cells. Depending on the T cell donor, the presentation of a given antigen or peptide could be restricted by HLA-DRB1, HLA-DRB3, and/or HLA-DRB4 products. In addition, stimulation of Th1 cells by some antigens and peptides in the presence of autologous and HLA-DR mismatched allogeneic APC suggested promiscuous presentation. These results taken together suggest that from HLA-restriction perspective, several mycobacterial antigens qualify as candidates for subunit or recombinant vaccine design against mycobacterial diseases.
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PMID:HLA-restricted immune response to mycobacterial antigens: relevance to vaccine design. 1071 10

Predisposition to rheumatoid arthritis (RA) is thought to be associated with HLA-DR1, -DR4, and -DR10. However, many epidemiological observations are better explained by a model in which the DQ alleles that are linked to these DR alleles, i.e., DQ5, DQ7, and DQ8, predispose to RA, while certain DR alleles have a dominant protective effect. All protective DRB1 alleles, e.g., *0402, *1301, and *1302, encode a unique motif, (70)DERAA(74). The protection may be explained by the presentation of DRB1-derived peptides by DQ to immunoregulatory T cells, because it was demonstrated in various autoimmune disease models that T cell responses to certain self-Ags can be involved in disease suppression. The aim of this study was to analyze whether peptides carrying the DERAA motif are naturally processed by human APC and presented in the context of the RA-predisposing DQ. Using a synthetic peptide carrying the DRB1*0402-derived sequence (65)KDILEDERAAVDTYC(79), we generated DERAA peptide-specific DQ-restricted T cell clones (TCC) from a DQ8 homozygous individual carrying DERAA-negative DR4 alleles. By analyzing the proliferation of these TCC, we demonstrated natural processing and presentation of the DERAA sequence by the APC of all the individuals (n = 12) carrying a DERAA-positive DRB1 allele and either DQ8 or the DQ8-related DQ7. Using a panel of truncated synthetic peptides, we identified the sequence (67)(I)LEDERAAVD(TY)(78) as the minimal determinant for binding to DQ8 and for recognition by the TCC. These findings support a model in which self-MHC-derived peptide can modulate predisposition to autoimmune disease in humans.
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PMID:An HLA-DRB1-derived peptide associated with protection against rheumatoid arthritis is naturally processed by human APCs. 1129 Jul 78

To study the requirements for activation of human Th1 and Th2 cells, soluble peptide/DR1 complexes were prepared from naturally expressed DR1 protein. When immobilized, this material induced T cell activation, as revealed by CD25 up-regulation. Unexpectedly, Th2 cells required a higher density of peptide/DR1 complexes than Th1 cells to initiate CD25 up-regulation. Similar findings were obtained with immobilized or soluble and cross-linked anti-CD3 mAb. In contrast, peptide/DR1 complexes displayed on the surface of nonprofessional APC similarly induced CD25 up-regulation in Th1 and Th2 cells. Signaling events distinguishing human Th1 and Th2 cells following TCR engagement by anti-CD3 mAb were then studied. It was observed that upon TCR triggering, the overall tyrosine phosphorylation profiles were fainter in Th2 than in Th1 clones. Similar results were obtained with Th1- and Th2-polarized polyclonal lines. Varying the dose of anti-CD3 mAb, the kinetics of activation, and coengagement of CD3 and CD28 failed to increase tyrosine phosphorylation in Th2 cells to levels reached in Th1 cells. In contrast, treatment with the tyrosine phosphatase inhibitor phenylarsine oxide resulted in similar tyrosine phosphorylation levels in Th2 and Th1 cells. These findings indicated that Th2 cells had an intrinsically lower TCR-induced tyrosine phosphorylation capacity than Th1 cells, which might be controlled by Th1- and Th2-specific phosphatase profiles. Finally, a weaker association was found between ZAP-70 and CD3zeta in Th2 than in Th1 cells after TCR engagement. Taken together, these results constituted evidence that early events in the TCR signaling cascades are distinct in human Th1 and Th2 cells.
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PMID:Early events of TCR signaling are distinct in human Th1 and Th2 cells. 1216 15

Small-molecular compounds with hydrogen bond (H-bond) donor function are able to trigger exchange reactions of MHC class II ligands. Here, we show that their effect is not limited to short peptides. Also encephalitogenic myelin basic protein (MBP) is transferred with great efficiency onto HLA-DR molecules when H-bond donor molecules such as parachlorphenol (pCP) are present. The effect was observed not only with soluble MHC class II but also with HLA-DR1 and HLA-DR2 molecules on the cell surface. The improved loading of APC translates directly into improved T cell activation. In the presence of pCP T cells reacted at significantly lower antigen concentrations, an effect observed with purified MBP protein as well as with crude spinal cord homogenate. The 'accidental' transfer of autoantigens such as MBP onto activated APC might trigger fatal autoimmune reactions and small molecules as catalysts of this process could represent risk factors, which had not been accounted for as yet.
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PMID:Small-molecular compounds enhance the loading of APC with encephalitogenic MBP protein. 1260 13

Transgenic mice expressing human major histocompatibility complex (MHC) class II molecules would provide a valuable model system for studying murine anti-human MHC immune response. We have previously shown that skin from HLA-DR1 transgenic mice was rejected by control littermates and spleen cells from rejecting mice were able to proliferate to donor cells. The aim of this paper is to analyze the mechanism of recognition of this xenoantigen and the possible involvement of antibody response in anti-HLA-DR1 immune response. Control littermates were immunized with spleen cells from HLA-DR1 transgenic (TG) mice; at indicated times, xenoantigen-specific proliferation and IFNgamma production was assessed using APC obtained from HLA-DR1 TG mice. Mixed direct-indirect pathway of xenoantigen recognition was suggested by the following findings: i)T cell response to HLA-DR1 was inhibited adding in culture monoclonal antibodies directed either to donor (HLA-DR) or to recipient MHC (I-A); ii) APC from control mice pulsed with purified DR1 molecules were able to induce proliferation by FVB/N mice immunized with transgenic spleen cells. HLA-DR1 recognition permits DR peptide-specific T cell response by lymphocytes of control littermates immunized with the xenoantigen. In addition, we detected xenoreactive IgM and IgG2 antibodies. Our data suggest that HLA-DR1 xenoantigen may be recognized through direct or indirect pathway and provide additional information on mouse anti-human HLA immune response.
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PMID:Analysis of the immune response induced by a single xenoantigen in vivo. 1586 Feb 24


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